/*
Copyright (C) 2003 Rice1964

This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
*/

#include "stdafx.h"
#include "glh_genext.h"

#define         GL_MODULATE_ADD_ATI                   0x8744
#define         GL_MODULATE_SUBTRACT_ATI              0x8746

//========================================================================
COGLColorCombiner4::COGLColorCombiner4(CRender *pRender)
		:COGLColorCombiner(pRender), m_maxTexUnits(0), m_lastIndex(-1),
		m_dwLastMux0(0), m_dwLastMux1(0)
{
	m_bOGLExtCombinerSupported=false;
	m_bSupportModAdd_ATI = false;
	m_bSupportModSub_ATI = false;
	delete m_pDecodedMux;
	m_pDecodedMux = new COGLExtDecodedMux;
}

COGLColorCombiner4v2::COGLColorCombiner4v2(CRender *pRender)
	:COGLColorCombiner4(pRender)
{
	delete m_pDecodedMux;
	m_pDecodedMux = new DecodedMuxForOGL14V2;
}

COGLColorCombiner2::COGLColorCombiner2(CRender *pRender)
		:COGLColorCombiner4(pRender)
{
	delete m_pDecodedMux;
	m_pDecodedMux = new CDirectXDecodedMux;		// Use Mux for DirectX because we support only 1 texture for each stage
	m_ppGeneralDecodedMux = &m_pDecodedMux;
}

//////////////////////////////////////////////////////////////////////////
bool COGLColorCombiner4::Initialize(void)
{
	m_bOGLExtCombinerSupported = false;
	m_bSupportModAdd_ATI = false;
	m_bSupportModSub_ATI = false;
	m_maxTexUnits = 1;

	if( COGLColorCombiner::Initialize() )
	{
		m_bSupportMultiTexture = true;
		COGLGraphicsContext *pcontext = (COGLGraphicsContext *)(CGraphicsContext::g_pGraphicsContext);

		if( pcontext->IsExtensionSupported("GL_EXT_texture_env_combine") || pcontext->IsExtensionSupported("GL_ARB_texture_env_combine") )
		{
			m_bOGLExtCombinerSupported = true;
			glGetIntegerv(GL_MAX_TEXTURE_UNITS_ARB,&m_maxTexUnits);
			if( m_maxTexUnits > 8 ) m_maxTexUnits = 8;

			TRACE0("Starting Ogl 1.4 multitexture combiner" );
			TRACE1("m_maxTexUnits = %d", m_maxTexUnits);
			if( pcontext->IsExtensionSupported("ATI_texture_env_combine3") )
			{
				m_bSupportModAdd_ATI = true;
				m_bSupportModSub_ATI = true;
			}
		}
		else
		{
			ErrorMsg("Your video card does not support OpenGL extension combiner, you can only use the basic OpenGL combiner functions");
		}
		m_supportedStages = m_maxTexUnits;
		return true;
	}

	return false;
}

bool COGLColorCombiner2::Initialize(void)
{
	TRACE0("Starting Ogl 1.2/1.3 multitexture combiner" );
	if( COGLColorCombiner4::Initialize() )
	{
		// For general combiner flags
		m_dwGeneralMaxStages = m_supportedStages;

		m_bTxtOpAdd = m_bSupportAdd;
		m_bTxtOpSub = m_bSupportSubtract;
		m_bTxtOpLerp = true;				

		m_bTxtOpAddSmooth = true;			
		m_bTxtOpBlendCurAlpha = true;		
		m_bTxtOpBlendDifAlpha = true;		
		m_bTxtOpBlendFacAlpha = true;		
		m_bTxtOpBlendTxtAlpha = true;		
		m_bTxtOpMulAdd = m_bSupportModAdd_ATI;			

		return true;
	}
	else
	{
		return false;
	}
}
//========================================================================
void COGLColorCombiner4::InitCombinerCycleFill(void)
{
	for( int i=0; i<m_supportedStages; i++ )
	{
		glActiveTextureARB(GL_TEXTURE0_ARB+i);
		m_pOGLRender->EnableTexUnit(i,FALSE);
	}

	//glActiveTextureARB(GL_TEXTURE0_ARB);
	//m_pOGLRender->EnableTexUnit(0,FALSE);
	//glActiveTextureARB(GL_TEXTURE1_ARB);
	//m_pOGLRender->EnableTexUnit(1,FALSE);
}

//////////////////////////////////////////////////////////////////////////
void COGLColorCombiner4::InitCombinerCycle12(void)
{
	if( !m_bOGLExtCombinerSupported )	
	{
		COGLColorCombiner::InitCombinerCycle12();
		return;
	}

#ifdef _DEBUG
	if( debuggerDropCombiners )
	{
		UpdateCombiner(m_pDecodedMux->m_dwMux0,m_pDecodedMux->m_dwMux1);
		m_vCompiledSettings.clear();
		m_dwLastMux0 = m_dwLastMux1 = 0;
		debuggerDropCombiners = false;
	}
#endif

	m_pOGLRender->EnableMultiTexture();

	bool combinerIsChanged = false;

	if( m_pDecodedMux->m_dwMux0 != m_dwLastMux0 || m_pDecodedMux->m_dwMux1 != m_dwLastMux1 || m_lastIndex < 0 )
	{
		combinerIsChanged = true;
		m_lastIndex = FindCompiledMux();
		if( m_lastIndex < 0 )		// Can not found
		{
			m_lastIndex = ParseDecodedMux();
#ifdef _DEBUG
			DisplaySimpleMuxString();
#endif
		}

		m_dwLastMux0 = m_pDecodedMux->m_dwMux0;
		m_dwLastMux1 = m_pDecodedMux->m_dwMux1;
	}
	

	if( m_bCycleChanged || combinerIsChanged || gRDP.texturesAreReloaded || gRDP.colorsAreReloaded )
	{
		if( m_bCycleChanged || combinerIsChanged )
		{
			GenerateCombinerSettingConstants(m_lastIndex);
			GenerateCombinerSetting(m_lastIndex);
		}
		else if( gRDP.colorsAreReloaded )
		{
			GenerateCombinerSettingConstants(m_lastIndex);
		}

		m_pOGLRender->SetAllTexelRepeatFlag();

		gRDP.colorsAreReloaded = false;
		gRDP.texturesAreReloaded = false;
	}
	else
	{
		m_pOGLRender->SetAllTexelRepeatFlag();
	}
}

//////////////////////////////////////////////////////////////////////////
int COGLColorCombiner4::ParseDecodedMux()
{
#define nextUnit()	{unitNo++;}
	if( m_maxTexUnits<3) 
		return  ParseDecodedMux2Units();

	OGLExtCombinerSaveType res;
	for( int k=0; k<8; k++ )	res.units[k].tex = -1;
	COGLDecodedMux &mux = *(COGLDecodedMux*)m_pDecodedMux;

	int unitNos[2];
	for( int rgbalpha = 0; rgbalpha<2; rgbalpha++ )
	{
		unitNos[rgbalpha] = 0;
		for( int cycle = 0; cycle<2; cycle++ )
		{
			int &unitNo = unitNos[rgbalpha];
			OGLExtCombinerType &unit = res.units[unitNo];
			OGLExt1CombType &comb = unit.Combs[rgbalpha];
			CombinerFormatType type = m_pDecodedMux->splitType[cycle*2+rgbalpha];
			N64CombinerType &m = m_pDecodedMux->m_n64Combiners[cycle*2+rgbalpha];
			comb.arg0 = comb.arg1 = comb.arg2 = CM_IGNORE_BYTE;

			switch( type )
			{
			case CM_FMT_TYPE_NOT_USED:
				comb.arg0 = MUX_COMBINED;
				unit.ops[rgbalpha] = GL_REPLACE;
				nextUnit();
				break;
			case CM_FMT_TYPE_D:				// = A
				comb.arg0 = m.d;
				unit.ops[rgbalpha] = GL_REPLACE;
				nextUnit();
				break;
			case CM_FMT_TYPE_A_ADD_D:			// = A+D
				comb.arg0 = m.a;
				comb.arg1 = m.d;
				unit.ops[rgbalpha] = GL_ADD;
				nextUnit();
				break;
			case CM_FMT_TYPE_A_SUB_B:			// = A-B
				comb.arg0 = m.a;
				comb.arg1 = m.b;
				unit.ops[rgbalpha] = GL_SUBTRACT_ARB;
				nextUnit();
				break;
			case CM_FMT_TYPE_A_MOD_C:			// = A*C
				comb.arg0 = m.a;
				comb.arg1 = m.c;
				unit.ops[rgbalpha] = GL_MODULATE;
				nextUnit();
				break;
			case CM_FMT_TYPE_A_MOD_C_ADD_D:	// = A*C+D
				if( m_bSupportModAdd_ATI )
				{
					comb.arg0 = m.a;
					comb.arg2 = m.c;
					comb.arg1 = m.d;
					unit.ops[rgbalpha] = GL_MODULATE_ADD_ATI;
					nextUnit();
				}
				else
				{
					if( unitNo < m_maxTexUnits-1 )
					{
						comb.arg0 = m.a;
						comb.arg1 = m.c;
						unit.ops[rgbalpha] = GL_MODULATE;
						nextUnit();
						res.units[unitNo].Combs[rgbalpha].arg0 = MUX_COMBINED;
						res.units[unitNo].Combs[rgbalpha].arg1 = m.d;
						res.units[unitNo].ops[rgbalpha] = GL_ADD;
						nextUnit();
					}
					else
					{
						comb.arg0 = m.a;
						comb.arg1 = m.c;
						comb.arg2 = m.d;
						unit.ops[rgbalpha] = GL_INTERPOLATE_ARB;
						nextUnit();
					}
				}
				break;
			case CM_FMT_TYPE_A_LERP_B_C:		// = (A-B)*C+B
				comb.arg0 = m.a;
				comb.arg1 = m.b;
				comb.arg2 = m.c;
				unit.ops[rgbalpha] = GL_INTERPOLATE_ARB;
				nextUnit();
				break;
			case CM_FMT_TYPE_A_SUB_B_ADD_D:	// = A-B+D
				if( unitNo < m_maxTexUnits-1 )
				{
					comb.arg0 = m.a;
					comb.arg1 = m.b;
					unit.ops[rgbalpha] = GL_SUBTRACT_ARB;
					nextUnit();
					res.units[unitNo].Combs[rgbalpha].arg0 = MUX_COMBINED;
					res.units[unitNo].Combs[rgbalpha].arg1 = m.d;
					res.units[unitNo].ops[rgbalpha] = GL_ADD;
					nextUnit();
				}
				else
				{
					comb.arg0 = m.a;
					comb.arg1 = m.c;
					comb.arg2 = m.d;
					unit.ops[rgbalpha] = GL_INTERPOLATE_ARB;
					nextUnit();
				}
				break;
			case CM_FMT_TYPE_A_SUB_B_MOD_C:	// = (A-B)*C
				if( unitNo < m_maxTexUnits-1 )
				{
					comb.arg0 = m.a;
					comb.arg1 = m.b;
					unit.ops[rgbalpha] = GL_SUBTRACT_ARB;
					nextUnit();
					res.units[unitNo].Combs[rgbalpha].arg0 = MUX_COMBINED;
					res.units[unitNo].Combs[rgbalpha].arg1 = m.c;
					res.units[unitNo].ops[rgbalpha] = GL_MODULATE;
					nextUnit();
				}
				else
				{
					comb.arg0 = m.a;
					comb.arg1 = m.c;
					comb.arg2 = m.d;
					unit.ops[rgbalpha] = GL_INTERPOLATE_ARB;
					nextUnit();
				}
				break;
			case CM_FMT_TYPE_A_B_C_D:			// = (A-B)*C+D
			default:
				if( unitNo < m_maxTexUnits-1 )
				{
					comb.arg0 = m.a;
					comb.arg1 = m.b;
					unit.ops[rgbalpha] = GL_SUBTRACT_ARB;
					nextUnit();
					if( m_bSupportModAdd_ATI )
					{
						res.units[unitNo].Combs[rgbalpha].arg0 = MUX_COMBINED;
						res.units[unitNo].Combs[rgbalpha].arg2 = m.c;
						res.units[unitNo].Combs[rgbalpha].arg1 = m.d;
						res.units[unitNo].ops[rgbalpha] = GL_MODULATE_ADD_ATI;
						nextUnit();
					}
					else
					{
						res.units[unitNo].Combs[rgbalpha].arg0 = m.a;
						res.units[unitNo].Combs[rgbalpha].arg1 = m.b;
						res.units[unitNo].Combs[rgbalpha].arg2 = m.c;
						res.units[unitNo].ops[rgbalpha] = GL_INTERPOLATE_ARB;
						nextUnit();
					}
				}
				else
				{
					comb.arg0 = m.a;
					comb.arg1 = m.c;
					comb.arg2 = m.d;
					unit.ops[rgbalpha] = GL_INTERPOLATE_ARB;
					nextUnit();
				}
				break;
			}
		}
	}
		
	res.numOfUnits = min(m_maxTexUnits, max(unitNos[0],unitNos[1]));

	if( unitNos[0]>m_maxTexUnits || unitNos[1]>m_maxTexUnits ) 
	{
		TRACE0("Unit overflows");
	}

	for( int j=0; j<2; j++ )
	{
		if( unitNos[j]<res.numOfUnits )
		{
			for( int i=unitNos[j]; i<res.numOfUnits; i++ )
			{
				res.units[i].Combs[j].arg0 = MUX_COMBINED;
				res.units[i].ops[j] = GL_REPLACE;
			}
		}
	}

	res.units[0].tex = 0;
	res.units[1].tex = 1;

	res.primIsUsed = mux.isUsed(MUX_PRIM);
	res.envIsUsed = mux.isUsed(MUX_ENV);
	res.lodFracIsUsed = mux.isUsed(MUX_LODFRAC) || mux.isUsed(MUX_PRIMLODFRAC);

	return SaveParsedResult(res);
}

int COGLColorCombiner4::ParseDecodedMux2Units()
{
	OGLExtCombinerSaveType res;
	for( int k=0; k<8; k++ )	res.units[k].tex = -1;

	res.numOfUnits = 2;
	COGLDecodedMux &mux = *(COGLDecodedMux*)m_pDecodedMux;

	for( int i=0; i<res.numOfUnits*2; i++ )	// Set combiner for each texture unit
	{
		// For each texture unit, set both RGB and Alpha channel
		// Keep in mind that the m_pDecodeMux has been reformated and simplified very well

		OGLExtCombinerType &unit = res.units[i/2];
		OGLExt1CombType &comb = unit.Combs[i%2];

		CombinerFormatType type = m_pDecodedMux->splitType[i];
		N64CombinerType &m = m_pDecodedMux->m_n64Combiners[i];

		comb.arg0 = comb.arg1 = comb.arg2 = MUX_0;

		switch( type )
		{
		case CM_FMT_TYPE_NOT_USED:
			comb.arg0 = MUX_COMBINED;
			unit.ops[i%2] = GL_REPLACE;
			break;
		case CM_FMT_TYPE_D:				// = A
			comb.arg0 = m.d;
			unit.ops[i%2] = GL_REPLACE;
			break;
		case CM_FMT_TYPE_A_ADD_D:			// = A+D
			comb.arg0 = m.a;
			comb.arg1 = m.d;
			unit.ops[i%2] = GL_ADD;
			break;
		case CM_FMT_TYPE_A_SUB_B:			// = A-B
			comb.arg0 = m.a;
			comb.arg1 = m.b;
			unit.ops[i%2] = GL_SUBTRACT_ARB;
			break;
		case CM_FMT_TYPE_A_MOD_C:			// = A*C
			comb.arg0 = m.a;
			comb.arg1 = m.c;
			unit.ops[i%2] = GL_MODULATE;
			break;
		case CM_FMT_TYPE_A_MOD_C_ADD_D:	// = A*C+D
			comb.arg0 = m.a;
			comb.arg1 = m.c;
			comb.arg2 = m.d;
			unit.ops[i%2] = GL_INTERPOLATE_ARB;
			break;
		case CM_FMT_TYPE_A_LERP_B_C:		// = (A-B)*C+B
			comb.arg0 = m.a;
			comb.arg1 = m.b;
			comb.arg2 = m.c;
			unit.ops[i%2] = GL_INTERPOLATE_ARB;
			break;
		case CM_FMT_TYPE_A_SUB_B_ADD_D:	// = A-B+D
			// fix me, to use 2 texture units
			comb.arg0 = m.a;
			comb.arg1 = m.b;
			unit.ops[i%2] = GL_SUBTRACT_ARB;
			break;
		case CM_FMT_TYPE_A_SUB_B_MOD_C:	// = (A-B)*C
			// fix me, to use 2 texture units
			comb.arg0 = m.a;
			comb.arg1 = m.c;
			unit.ops[i%2] = GL_MODULATE;
			break;
			break;
		case CM_FMT_TYPE_A_B_C_D:			// = (A-B)*C+D
		default:
			comb.arg0 = m.a;
			comb.arg1 = m.b;
			comb.arg2 = m.c;
			unit.ops[i%2] = GL_INTERPOLATE_ARB;
			break;
		}
	}

	if( m_pDecodedMux->splitType[2] == CM_FMT_TYPE_NOT_USED && m_pDecodedMux->splitType[3] == CM_FMT_TYPE_NOT_USED && !m_bTex1Enabled )
	{
		res.numOfUnits = 1;
	}

	res.units[0].tex = 0;
	res.units[1].tex = 1;

	return SaveParsedResult(res);
}

const char* COGLColorCombiner4::GetOpStr(GLenum op)
{
	switch( op )
	{
	case GL_REPLACE:
		return "REPLACE";
	case GL_MODULATE:
		return "MOD";
	case GL_ADD:
		return "ADD";
	case GL_ADD_SIGNED_ARB:
		return "ADD_SIGNED";
	case GL_INTERPOLATE_ARB:
		return "INTERPOLATE";
	case GL_SUBTRACT_ARB:
		return "SUB";
	case GL_MODULATE_ADD_ATI:
		return "MULADD";
	default:
		return "SUB";
	}
}

int COGLColorCombiner4::SaveParsedResult(OGLExtCombinerSaveType &result)
{
	result.dwMux0 = m_pDecodedMux->m_dwMux0;
	result.dwMux1 = m_pDecodedMux->m_dwMux1;

	for( int n=0; n<result.numOfUnits; n++ )
	{
		for( int i=0; i<3; i++ )
		{
			result.units[n].glRGBArgs[i] = 0;
			result.units[n].glRGBFlags[i] = 0;
			result.units[n].glAlphaArgs[i] = 0;
			result.units[n].glAlphaFlags[i] = 0;
			if( result.units[n].rgbComb.args[i] != CM_IGNORE_BYTE )
			{
				result.units[n].glRGBArgs[i] = MapRGBArgs(result.units[n].rgbComb.args[i]);
				result.units[n].glRGBFlags[i] = MapRGBArgFlags(result.units[n].rgbComb.args[i]);
			}
			if( result.units[n].alphaComb.args[i] != CM_IGNORE_BYTE )
			{
				result.units[n].glAlphaArgs[i] = MapAlphaArgs(result.units[n].alphaComb.args[i]);
				result.units[n].glAlphaFlags[i] = MapAlphaArgFlags(result.units[n].alphaComb.args[i]);
			}
		}
	}

	m_vCompiledSettings.push_back(result);
	m_lastIndex = m_vCompiledSettings.size()-1;

#ifdef _DEBUG
	if( logCombiners )
	{
		DisplaySimpleMuxString();
	}
#endif

	return m_lastIndex;
}

bool isGLtex(GLint val)
{
	if( val >= GL_TEXTURE0_ARB && val <= GL_TEXTURE7_ARB )
		return true;
	else
		return false;
}

int COGLColorCombiner4v2::SaveParsedResult(OGLExtCombinerSaveType &result)
{
	result.dwMux0 = m_pDecodedMux->m_dwMux0;
	result.dwMux1 = m_pDecodedMux->m_dwMux1;

	int n;

	for( n=0; n<result.numOfUnits; n++ )
	{
		for( int i=0; i<3; i++ )
		{
			result.units[n].glRGBArgs[i] = 0;
			result.units[n].glRGBFlags[i] = 0;
			result.units[n].glAlphaArgs[i] = 0;
			result.units[n].glAlphaFlags[i] = 0;
			if( result.units[n].rgbComb.args[i] != CM_IGNORE_BYTE )
			{
				result.units[n].glRGBArgs[i] = MapRGBArgs(result.units[n].rgbComb.args[i]);
				if( result.units[n].glRGBArgs[i] == GL_TEXTURE3_ARB && !result.envIsUsed )
					result.units[n].glRGBArgs[i] = GL_TEXTURE2_ARB;

				result.units[n].glRGBFlags[i] = MapRGBArgFlags(result.units[n].rgbComb.args[i]);
			}
			if( result.units[n].alphaComb.args[i] != CM_IGNORE_BYTE )
			{
				result.units[n].glAlphaArgs[i] = MapAlphaArgs(result.units[n].alphaComb.args[i]);
				if( result.units[n].glAlphaArgs[i] == GL_TEXTURE3_ARB && !result.envIsUsed )
					result.units[n].glAlphaArgs[i] = GL_TEXTURE2_ARB;

				result.units[n].glAlphaFlags[i] = MapAlphaArgFlags(result.units[n].alphaComb.args[i]);
			}
		}

		if( isGLtex(result.units[n].glRGBArgs[0]) && isGLtex(result.units[n].glRGBArgs[1]) && isGLtex(result.units[n].glRGBArgs[2]) )
		{
			result.units[n].glRGBArgs[2] = GL_CONSTANT_ARB;
		}
		if( isGLtex(result.units[n].glAlphaArgs[0]) && isGLtex(result.units[n].glAlphaArgs[1]) && isGLtex(result.units[n].glAlphaArgs[2]) )
		{
			result.units[n].glRGBArgs[2] = GL_CONSTANT_ARB;
		}
	}

	int extraUnit = 0;
	if( result.envIsUsed )	extraUnit++;
	if( result.lodFracIsUsed ) extraUnit++;
	for( n=result.numOfUnits; n<result.numOfUnits+extraUnit; n++ )
	{
		for( int i=0; i<3; i++ )
		{
			result.units[n].rgbComb.args[i]=CM_IGNORE_BYTE;
			result.units[n].alphaComb.args[i]=CM_IGNORE_BYTE;
			result.units[n].glRGBArgs[i] = 0;
			result.units[n].glRGBFlags[i] = 0;
			result.units[n].glAlphaArgs[i] = 0;
			result.units[n].glAlphaFlags[i] = 0;
		}
		
		result.units[n].rgbComb.args[0]=MUX_COMBINED;
		result.units[n].alphaComb.args[0]=MUX_COMBINED;
		result.units[n].rgbOp = GL_REPLACE;
		result.units[n].alphaOp = GL_REPLACE;
		result.units[n].glRGBArgs[0] = GL_PREVIOUS_ARB;
		result.units[n].glRGBArgs[1] = GL_PREVIOUS_ARB;
		result.units[n].rgbFlag0gl = GL_SRC_COLOR;
		result.units[n].rgbFlag1gl = GL_SRC_COLOR;
		result.units[n].glAlphaArgs[0] = GL_PREVIOUS_ARB;
		result.units[n].glAlphaArgs[1] = GL_PREVIOUS_ARB;
		result.units[n].alphaFlag0gl = GL_SRC_ALPHA;
		result.units[n].alphaFlag1gl = GL_SRC_ALPHA;
	}

	result.numOfUnits += extraUnit;

	m_vCompiledSettings.push_back(result);
	m_lastIndex = m_vCompiledSettings.size()-1;

#ifdef _DEBUG
	if( logCombiners )
	{
		DisplaySimpleMuxString();
	}
#endif

	return m_lastIndex;
}


#ifdef _DEBUG
extern const char *translatedCombTypes[];
void COGLColorCombiner4::DisplaySimpleMuxString(void)
{
	char buf0[30], buf1[30], buf2[30];
	OGLExtCombinerSaveType &result = m_vCompiledSettings[m_lastIndex];

	COGLColorCombiner::DisplaySimpleMuxString();
	DebuggerAppendMsg("OpenGL 1.2: %d Stages", result.numOfUnits);		
	for( int i=0; i<result.numOfUnits; i++ )
	{
		DebuggerAppendMsg("//aRGB%d:\t%s: %s, %s, %s\n", i,GetOpStr(result.units[i].rgbOp), DecodedMux::FormatStr(result.units[i].rgbArg0,buf0), DecodedMux::FormatStr(result.units[i].rgbArg1,buf1), DecodedMux::FormatStr(result.units[i].rgbArg2,buf2));		
		DebuggerAppendMsg("//aAlpha%d:\t%s: %s, %s, %s\n", i,GetOpStr(result.units[i].alphaOp), DecodedMux::FormatStr(result.units[i].alphaArg0,buf0), DecodedMux::FormatStr(result.units[i].alphaArg1,buf1), DecodedMux::FormatStr(result.units[i].alphaArg2,buf2));		
	}
	TRACE0("\n\n");
}
void COGLColorCombiner2::DisplaySimpleMuxString(void)
{
	char buf0[30], buf1[30], buf2[30];
	OGLExtCombinerSaveType &result = m_vCompiledSettings[m_lastIndex];

	COGLColorCombiner::DisplaySimpleMuxString();
	int generalCombinerIndex = CGeneralCombiner::FindCompiledMux();
	if( generalCombinerIndex < 0 )		// Can not found
	{
		generalCombinerIndex = CGeneralCombiner::ParseDecodedMux();
	}
	DebuggerAppendMsg("Generated general combiners:");
	GeneralCombinerInfo &generalRes = m_vCompiledCombinerStages[generalCombinerIndex];
	General_DisplayBlendingStageInfo(generalRes);

	DebuggerAppendMsg("OpenGL 1.2: %d Stages", result.numOfUnits);		
	for( int i=0; i<result.numOfUnits; i++ )
	{
		DebuggerAppendMsg("//aRGB%d:\t%s: %s, %s, %s\n", i,GetOpStr(result.units[i].rgbOp), DecodedMux::FormatStr(result.units[i].rgbArg0,buf0), DecodedMux::FormatStr(result.units[i].rgbArg1,buf1), DecodedMux::FormatStr(result.units[i].rgbArg2,buf2));		
		DebuggerAppendMsg("//aAlpha%d:\t%s: %s, %s, %s\n", i,GetOpStr(result.units[i].alphaOp), DecodedMux::FormatStr(result.units[i].alphaArg0,buf0), DecodedMux::FormatStr(result.units[i].alphaArg1,buf1), DecodedMux::FormatStr(result.units[i].alphaArg2,buf2));		
	}
	TRACE0("\n\n");
}
#endif


//////////////////////////////////////////////////////////////////////////
int COGLColorCombiner4::FindCompiledMux()
{
#ifdef _DEBUG
	if( debuggerDropCombiners )
	{
		m_vCompiledSettings.clear();
		//m_dwLastMux0 = m_dwLastMux1 = 0;
		debuggerDropCombiners = false;
	}
#endif
	for( uint32 i=0; i<m_vCompiledSettings.size(); i++ )
	{
		if( m_vCompiledSettings[i].dwMux0 == m_pDecodedMux->m_dwMux0 && m_vCompiledSettings[i].dwMux1 == m_pDecodedMux->m_dwMux1 )
			return (int)i;
	}

	return -1;
}

//========================================================================

GLint COGLColorCombiner4::RGBArgsMap4[] =
{
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_0
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_1
	{GL_PREVIOUS_ARB,			},	//MUX_COMBINED,
	{GL_TEXTURE0_ARB,			},	//MUX_TEXEL0,
	{GL_TEXTURE1_ARB,			},	//MUX_TEXEL1,
	{GL_CONSTANT_ARB,			},	//MUX_PRIM,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_SHADE,
	{GL_CONSTANT_ARB,			},	//MUX_ENV,
	{GL_PREVIOUS_ARB,			},	//MUX_COMBALPHA,
	{GL_TEXTURE0_ARB,			},	//MUX_T0_ALPHA,
	{GL_TEXTURE1_ARB,			},	//MUX_T1_ALPHA,
	{GL_CONSTANT_ARB,			},	//MUX_PRIM_ALPHA,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_SHADE_ALPHA,
	{GL_CONSTANT_ARB,			},	//MUX_ENV_ALPHA,
	{GL_CONSTANT_ARB,			},	//MUX_LODFRAC,
	{GL_CONSTANT_ARB,			},	//MUX_PRIMLODFRAC,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_K5
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_UNK
};

GLint COGLColorCombiner4v2::RGBArgsMap4v2[] =
{
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_0
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_1
	{GL_PREVIOUS_ARB,			},	//MUX_COMBINED,
	{GL_TEXTURE0_ARB,			},	//MUX_TEXEL0,
	{GL_TEXTURE1_ARB,			},	//MUX_TEXEL1,
	{GL_CONSTANT_ARB,			},	//MUX_PRIM,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_SHADE,
	{GL_TEXTURE2_ARB,			},	//MUX_ENV,
	//{GL_TEXTURE1_ARB,			},	//MUX_ENV,
	{GL_PREVIOUS_ARB,			},	//MUX_COMBALPHA,
	{GL_TEXTURE0_ARB,			},	//MUX_T0_ALPHA,
	{GL_TEXTURE1_ARB,			},	//MUX_T1_ALPHA,
	{GL_CONSTANT_ARB,			},	//MUX_PRIM_ALPHA,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_SHADE_ALPHA,
	{GL_TEXTURE2_ARB,			},	//MUX_ENV_ALPHA,
	//{GL_TEXTURE1_ARB,			},	//MUX_ENV_ALPHA,
	//{GL_TEXTURE3_ARB,			},	//MUX_LODFRAC,
	//{GL_TEXTURE3_ARB,			},	//MUX_PRIMLODFRAC,
	{GL_TEXTURE1_ARB,			},	//MUX_LODFRAC,
	{GL_TEXTURE1_ARB,			},	//MUX_PRIMLODFRAC,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_K5
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_UNK
};

GLint COGLColorCombiner2::RGBArgsMap2[] =
{
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_0
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_1
	{GL_PREVIOUS_ARB,			},	//MUX_COMBINED,
	//{GL_TEXTURE,				},	//MUX_TEXEL0,
	//{GL_TEXTURE,				},	//MUX_TEXEL1,
	{GL_TEXTURE0_ARB,			},	//MUX_TEXEL0,
	{GL_TEXTURE1_ARB,			},	//MUX_TEXEL1,
	{GL_CONSTANT_ARB,			},	//MUX_PRIM,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_SHADE,
	{GL_CONSTANT_ARB,			},	//MUX_ENV,
	{GL_PREVIOUS_ARB,			},	//MUX_COMBALPHA,
	//{GL_TEXTURE,				},	//MUX_T0_ALPHA,
	//{GL_TEXTURE,				},	//MUX_T1_ALPHA,
	{GL_TEXTURE0_ARB,			},	//MUX_TEXEL0,
	{GL_TEXTURE1_ARB,			},	//MUX_TEXEL1,
	{GL_CONSTANT_ARB,			},	//MUX_PRIM_ALPHA,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_SHADE_ALPHA,
	{GL_CONSTANT_ARB,			},	//MUX_ENV_ALPHA,
	{GL_CONSTANT_ARB,			},	//MUX_LODFRAC,
	{GL_CONSTANT_ARB,			},	//MUX_PRIMLODFRAC,
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_K5
	{GL_PRIMARY_COLOR_ARB,		},	//MUX_UNK
};

//========================================================================

GLint COGLColorCombiner4::MapRGBArgs(uint8 arg)
{
	return RGBArgsMap4[arg&MUX_MASK];
}

GLint COGLColorCombiner4v2::MapRGBArgs(uint8 arg)
{
	return RGBArgsMap4v2[arg&MUX_MASK];
}

GLint COGLColorCombiner2::MapRGBArgs(uint8 arg)
{
	return RGBArgsMap2[arg&MUX_MASK];
}

GLint COGLColorCombiner4::MapRGBArgFlags(uint8 arg)
{
	if( (arg & MUX_ALPHAREPLICATE) && (arg & MUX_COMPLEMENT) )
	{
		return GL_ONE_MINUS_SRC_ALPHA;
	}
	else if( (arg & MUX_ALPHAREPLICATE) )
	{
		return GL_SRC_ALPHA;
	}
	else if(arg & MUX_COMPLEMENT) 
	{
		return GL_ONE_MINUS_SRC_COLOR;
	}
	else
		return GL_SRC_COLOR;
}

GLint COGLColorCombiner4::MapAlphaArgs(uint8 arg)
{
	return RGBArgsMap4[arg&MUX_MASK];
}

GLint COGLColorCombiner4v2::MapAlphaArgs(uint8 arg)
{
	return RGBArgsMap4v2[arg&MUX_MASK];
}

GLint COGLColorCombiner2::MapAlphaArgs(uint8 arg)
{
	return RGBArgsMap2[arg&MUX_MASK];
}

GLint COGLColorCombiner4::MapAlphaArgFlags(uint8 arg)
{
	if(arg & MUX_COMPLEMENT) 
	{
		return GL_ONE_MINUS_SRC_ALPHA;
	}
	else
		return GL_SRC_ALPHA;
}

//========================================================================

void ApplyFor1Unit(OGLExtCombinerType &unit)
{
	glTexEnvi(GL_TEXTURE_ENV, GL_COMBINE_RGB_ARB, unit.rgbOp);

	if( unit.rgbArg0 != CM_IGNORE_BYTE )
	{
		glTexEnvi(GL_TEXTURE_ENV, GL_SOURCE0_RGB_ARB, (unit.rgbArg0gl));
		glTexEnvi(GL_TEXTURE_ENV, GL_OPERAND0_RGB_ARB, (unit.rgbFlag0gl));
	}

	if( unit.rgbArg1 != CM_IGNORE_BYTE )
	{
		glTexEnvi(GL_TEXTURE_ENV, GL_SOURCE1_RGB_ARB, (unit.rgbArg1gl));
		glTexEnvi(GL_TEXTURE_ENV, GL_OPERAND1_RGB_ARB, (unit.rgbFlag1gl));
	}

	if( unit.rgbArg2 != CM_IGNORE_BYTE )
	{
		glTexEnvi(GL_TEXTURE_ENV, GL_SOURCE2_RGB_ARB, (unit.rgbArg2gl));
		glTexEnvi(GL_TEXTURE_ENV, GL_OPERAND2_RGB_ARB, (unit.rgbFlag2gl));
	}

	if( unit.alphaArg0 != CM_IGNORE_BYTE )
	{
		glTexEnvi(GL_TEXTURE_ENV, GL_SOURCE0_ALPHA_ARB, (unit.alphaArg0gl));
		glTexEnvi(GL_TEXTURE_ENV, GL_OPERAND0_ALPHA_ARB, (unit.alphaFlag0gl));
	}

	if( unit.alphaArg1 != CM_IGNORE_BYTE )
	{
		glTexEnvi(GL_TEXTURE_ENV, GL_SOURCE1_ALPHA_ARB, (unit.alphaArg1gl));
		glTexEnvi(GL_TEXTURE_ENV, GL_OPERAND1_ALPHA_ARB, (unit.alphaFlag1gl));
	}

	if( unit.alphaArg2 != CM_IGNORE_BYTE )
	{
		glTexEnvi(GL_TEXTURE_ENV, GL_SOURCE2_ALPHA_ARB, (unit.alphaArg2gl));
		glTexEnvi(GL_TEXTURE_ENV, GL_OPERAND2_ALPHA_ARB, (unit.alphaFlag2gl));
	}
}

//////////////////////////////////////////////////////////////////////////

void COGLColorCombiner4::GenerateCombinerSetting(int index)
{
	OGLExtCombinerSaveType &res = m_vCompiledSettings[index];

	// Texture unit 0
	COGLTexture* pTexture = NULL;
	COGLTexture* pTexture1 = NULL;

	if( m_bTex0Enabled || m_bTex1Enabled || gRDP.otherMode.cycle_type  == CYCLE_TYPE_COPY )
	{
		if( m_bTex0Enabled || gRDP.otherMode.cycle_type  == CYCLE_TYPE_COPY )
		{
			pTexture = g_textures[gRSP.curTile].m_pCOGLTexture;
			if( pTexture )	m_pOGLRender->BindTexture(pTexture->m_dwTextureName, 0);
		}
		if( m_bTex1Enabled )
		{
			pTexture1 = g_textures[(gRSP.curTile+1)&7].m_pCOGLTexture;
			if( pTexture1 )	m_pOGLRender->BindTexture(pTexture1->m_dwTextureName, 1);
		}
	}



	for( int i=0; i<res.numOfUnits; i++ )
	{
		glActiveTextureARB(GL_TEXTURE0_ARB+i);
		m_pOGLRender->EnableTexUnit(i,TRUE);
		glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_COMBINE_ARB);
		ApplyFor1Unit(res.units[i]);
	}

	if( res.numOfUnits < m_maxTexUnits )
	{
		for( int i=res.numOfUnits; i<m_maxTexUnits; i++ )
		{
			glActiveTextureARB(GL_TEXTURE0_ARB+i);
			m_pOGLRender->DisBindTexture(0, i);
			m_pOGLRender->EnableTexUnit(i,FALSE);
		}
	}
}


void COGLColorCombiner4::GenerateCombinerSettingConstants(int index)
{
	OGLExtCombinerSaveType &res = m_vCompiledSettings[index];

	float *fv;
	float tempf[4];

	bool isused = true;

	if( res.primIsUsed )
	{
		fv = GetPrimitiveColorfv();	// CONSTANT COLOR
	}
	else if( res.envIsUsed )
	{
		fv = GetEnvColorfv();	// CONSTANT COLOR
	}
	else if( res.lodFracIsUsed )
	{
		float frac = gRDP.LODFrac / 255.0f;
		tempf[0] = tempf[1] = tempf[2] = tempf[3] = frac;
		fv = &tempf[0];
	}
	else
	{
		isused = false;
	}

	if( isused )
	{
		for( int i=0; i<res.numOfUnits; i++ )
		{
			glActiveTextureARB(GL_TEXTURE0_ARB+i);
			glTexEnvfv(GL_TEXTURE_ENV, GL_TEXTURE_ENV_COLOR,fv);
		}
	}
}


void COGLColorCombiner4v2::GenerateCombinerSettingConstants(int index)
{
	//COGLColorCombiner4::GenerateCombinerSettingConstants(index);
	//return;

	OGLExtCombinerSaveType &res = m_vCompiledSettings[index];
	COGLExtRender *prender = (COGLExtRender *)m_pRender;

	if( res.primIsUsed )
	{
		float *fv = GetPrimitiveColorfv();	// CONSTANT COLOR
		for( int i=0; i<res.numOfUnits; i++ )
		{
			glActiveTextureARB(GL_TEXTURE0_ARB+i);
			glTexEnvfv(GL_TEXTURE_ENV, GL_TEXTURE_ENV_COLOR,fv);
		}
	}

	if( res.envIsUsed )
	{
		// Set Texture unit 2 to ENV
		glActiveTextureARB(GL_TEXTURE2_ARB);
		prender->EnableTexUnit(2,TRUE);
		TxtrCacheEntry *pEntry = gTextureManager.GetConstantColorTexture(MUX_ENV);
		prender->SetCurrentTexture( (gRSP.curTile+2)%7, pEntry->pTexture, 4, 4, pEntry);
		prender->SetTexelRepeatFlags((gRSP.curTile+2)%7);
	}

	if( res.lodFracIsUsed)
	{
		int unit = 3;
		if( !res.envIsUsed )
			unit = 2;

		// Set Texture unit 3 to LODFRAC
		glActiveTextureARB(GL_TEXTURE0_ARB+unit);
		prender->EnableTexUnit(unit,TRUE);
		TxtrCacheEntry *pEntry = gTextureManager.GetConstantColorTexture(MUX_LODFRAC);
		prender->SetCurrentTexture( (gRSP.curTile+unit)%7, pEntry->pTexture, 4, 4, pEntry);
		prender->SetTexelRepeatFlags((gRSP.curTile+unit)%7);
	}
	else
	{
		int unit = 3;
		if( !res.envIsUsed )
			unit = 2;

		// Disable texture unit 3
		glActiveTextureARB(GL_TEXTURE0_ARB+unit);
		prender->EnableTexUnit(unit,FALSE);
		prender->SetTextureToTextureUnitMap(-1,unit);
	}
}


GLenum GeneralToGLMaps[]=
{
	GL_REPLACE,				//CM_REPLACE,
	GL_MODULATE,			//CM_MODULATE,
	GL_ADD,					//CM_ADD,
	GL_SUBTRACT_ARB,		//CM_SUBTRACT,
	GL_INTERPOLATE_ARB,		//CM_INTERPOLATE,
	GL_INTERPOLATE_ARB,		//CM_ADDSMOOTH,		
	GL_INTERPOLATE_ARB,		//CM_BLENDCURRENTALPHA
	GL_INTERPOLATE_ARB,		//CM_BLENDDIFFUSEALPHA
	GL_INTERPOLATE_ARB,		//CM_BLENDFACTORALPHA,
	GL_INTERPOLATE_ARB,		//CM_BLENDTEXTUREALPHA
	GL_MODULATE_ADD_ATI,	//CM_MULTIPLYADD,		
};


//////////////////////////////////////////////////////////////////////////
int COGLColorCombiner2::ParseDecodedMux()
{
	//return COGLColorCombiner4::ParseDecodedMux();

	int generalCombinerIndex = CGeneralCombiner::FindCompiledMux();
	if( generalCombinerIndex < 0 )		// Can not found
	{
		generalCombinerIndex = CGeneralCombiner::ParseDecodedMux();
	}

	GeneralCombinerInfo &generalRes = m_vCompiledCombinerStages[generalCombinerIndex];
	OGLExtCombinerSaveType res;

	// Convert generalRes to OGLExtCombinerSaveType
	for( int unitNo=0; unitNo<generalRes.nStages; unitNo++ )
	{
		OGLExtCombinerType &unit = res.units[unitNo];
		OGLExt1CombType &colorComb = unit.Combs[0];
		OGLExt1CombType &alphaComb = unit.Combs[1];

		unit.rgbArg0 = (uint8)generalRes.stages[unitNo].colorOp.Arg1;
		unit.rgbArg1 = (uint8)generalRes.stages[unitNo].colorOp.Arg2;
		unit.rgbArg2 = (uint8)generalRes.stages[unitNo].colorOp.Arg0;
		unit.alphaArg0 = (uint8)generalRes.stages[unitNo].alphaOp.Arg1;
		unit.alphaArg1 = (uint8)generalRes.stages[unitNo].alphaOp.Arg2;
		unit.alphaArg2 = (uint8)generalRes.stages[unitNo].alphaOp.Arg0;

		unit.rgbOp = GeneralToGLMaps[generalRes.stages[unitNo].colorOp.op];
		if( unit.rgbOp == GL_MODULATE_ADD_ATI && !m_bTxtOpMulAdd )
		{
			if( (unit.rgbArg0&MUX_MASK) == (unit.rgbArg2&MUX_MASK) && (unit.rgbArg0&MUX_COMPLEMENT) )
			{
				unit.rgbOp = GL_ADD;
				unit.rgbArg0 &= ~MUX_COMPLEMENT;
			}
			else
			{
				unit.rgbOp = GL_MODULATE;
			}
		}
		unit.alphaOp = GeneralToGLMaps[generalRes.stages[unitNo].alphaOp.op];
		if( unit.alphaOp == GL_MODULATE_ADD_ATI && !m_bTxtOpMulAdd )	
		{
			if( (unit.alphaArg0&MUX_MASK) == (unit.alphaArg2&MUX_MASK) && (unit.alphaArg0&MUX_COMPLEMENT) )
			{
				unit.alphaOp = GL_ADD;
				unit.alphaArg0 &= ~MUX_COMPLEMENT;
			}
			else
			{
				unit.alphaOp = GL_MODULATE;
			}
		}

		unit.tex = generalRes.stages[unitNo].dwTexture;
		unit.textureIsUsed = generalRes.stages[unitNo].bTextureUsed;
	}

	res.numOfUnits = generalRes.nStages;
	res.constantColor = generalRes.TFactor;
	return SaveParsedResult(res);
}


void COGLColorCombiner2::GenerateCombinerSettingConstants(int index)
{
	OGLExtCombinerSaveType &res = m_vCompiledSettings[index];

	bool isused = true;

	float *fv;
	float tempf[4];

	if( res.primIsUsed )
	{
		fv = GetPrimitiveColorfv();	// CONSTANT COLOR
	}
	else if( res.envIsUsed )
	{
		fv = GetEnvColorfv();	// CONSTANT COLOR
	}
	else if( res.lodFracIsUsed )
	{
		float frac = gRDP.LODFrac / 255.0f;
		tempf[0] = tempf[1] = tempf[2] = tempf[3] = frac;
		fv = &tempf[0];
	}
	else
	{
		isused = false;
	}

	if( isused )
	{
		for( int i=0; i<res.numOfUnits; i++ )
		{
			glActiveTextureARB(GL_TEXTURE0_ARB+i);
			glTexEnvfv(GL_TEXTURE_ENV, GL_TEXTURE_ENV_COLOR,fv);
		}
	}
}
void COGLColorCombiner2::GenerateCombinerSetting(int index)
{
	OGLExtCombinerSaveType &res = m_vCompiledSettings[index];
	COGLExtRender *prender = (COGLExtRender *)m_pRender;

	for( int i=0; i<res.numOfUnits; i++ )
	{
		glActiveTextureARB(GL_TEXTURE0_ARB+i);
		//if(res.units[i].textureIsUsed)
		{
			prender->SetTextureToTextureUnitMap(res.units[i].tex,i);
			m_pOGLRender->EnableTexUnit(i,TRUE);
			COGLTexture* pTexture = g_textures[(gRSP.curTile+res.units[i].tex)&7].m_pCOGLTexture;
			if( pTexture )	m_pOGLRender->BindTexture(pTexture->m_dwTextureName, i);
		}
		/*
		else
		{
			m_pOGLRender->EnableTexUnit(i,TRUE);
			prender->SetTextureToTextureUnitMap(-1,i);
			//m_pOGLRender->EnableTexUnit(i,FALSE);
			//m_pOGLRender->DisBindTexture(0, i);
		}
		*/

		glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_COMBINE_ARB);
		ApplyFor1Unit(res.units[i]);
	}

	if( res.numOfUnits < m_maxTexUnits )
	{
		for( int i=res.numOfUnits; i<m_maxTexUnits; i++ )
		{
			glActiveTextureARB(GL_TEXTURE0_ARB+i);
			m_pOGLRender->EnableTexUnit(i,FALSE);
			prender->SetTextureToTextureUnitMap(-1,i);
		}
	}
}

